The uRANIA-V project foster the development of new technologies for thermal neutron detection with gaseous detectors. The first is the micro-Resistive WELL (μ-RWELL), a compact resistive Micro-Pattern-Gaseous Detector (MPGD) born for HEP applications. The second proposed technology is the surface-Resistive Plate Counter (sRPC). This detector is a novel type of RPC which principle of operation is based on surface resistivity. For both detectors different 10B4C converter have been exploited to detect thermal neutrons, achieving in both case overall efficiencies ranging between 5 and 10%.
uRANIA-V: resistive gaseous devices for thermal neutron detection
Garzia, I.;
2025
Abstract
The uRANIA-V project foster the development of new technologies for thermal neutron detection with gaseous detectors. The first is the micro-Resistive WELL (μ-RWELL), a compact resistive Micro-Pattern-Gaseous Detector (MPGD) born for HEP applications. The second proposed technology is the surface-Resistive Plate Counter (sRPC). This detector is a novel type of RPC which principle of operation is based on surface resistivity. For both detectors different 10B4C converter have been exploited to detect thermal neutrons, achieving in both case overall efficiencies ranging between 5 and 10%.File in questo prodotto:
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Balossino_2025_J._Phys.:_Conf._Ser._3130_012011.pdf
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